# -------------------------------------------------------------------------
# Copyright (c) Microsoft Corporation. All rights reserved.
# Licensed under the MIT License. See License.txt in the project root for
# license information.
# --------------------------------------------------------------------------
# pylint: disable=invalid-overridden-method
# mypy: disable-error-code=override

import asyncio  # pylint: disable=do-not-import-asyncio
import codecs
import sys
import warnings
from io import BytesIO, StringIO
from itertools import islice
from typing import (
    Any, AsyncIterator, Awaitable,
    Generator, Callable, cast, Dict,
    Generic, IO, Optional, overload,
    Tuple, TypeVar, Union, TYPE_CHECKING
)

from azure.core.exceptions import DecodeError, HttpResponseError, IncompleteReadError

from .._shared.request_handlers import validate_and_format_range_headers
from .._shared.response_handlers import parse_length_from_content_range, process_storage_error
from .._deserialize import deserialize_blob_properties, get_page_ranges_result
from .._download import process_range_and_offset, _ChunkDownloader
from .._encryption import (
    adjust_blob_size_for_encryption,
    decrypt_blob,
    is_encryption_v2,
    parse_encryption_data
)

if TYPE_CHECKING:
    from codecs import IncrementalDecoder
    from .._encryption import _EncryptionData
    from .._generated.aio import AzureBlobStorage
    from .._models import BlobProperties
    from .._shared.models import StorageConfiguration


T = TypeVar('T', bytes, str)


async def process_content(data: Any, start_offset: int, end_offset: int, encryption: Dict[str, Any]) -> bytes:
    if data is None:
        raise ValueError("Response cannot be None.")
    if hasattr(data.response, "is_stream_consumed") and data.response.is_stream_consumed:
        content = data.response.content
    else:
        content = b"".join([d async for d in data])
    if encryption.get('key') is not None or encryption.get('resolver') is not None:
        try:
            return decrypt_blob(
                encryption.get('required') or False,
                encryption.get('key'),
                encryption.get('resolver'),
                content,
                start_offset,
                end_offset,
                data.response.headers
            )
        except Exception as error:
            raise HttpResponseError(
                message="Decryption failed.",
                response=data.response,
                error=error
            ) from error
    return content


class _AsyncChunkDownloader(_ChunkDownloader):
    def __init__(self, **kwargs: Any) -> None:
        super(_AsyncChunkDownloader, self).__init__(**kwargs)
        self.stream_lock_async = asyncio.Lock() if kwargs.get('parallel') else None
        self.progress_lock_async = asyncio.Lock() if kwargs.get('parallel') else None

    async def process_chunk(self, chunk_start: int) -> None:
        chunk_start, chunk_end = self._calculate_range(chunk_start)
        chunk_data, _ = await self._download_chunk(chunk_start, chunk_end - 1)
        length = chunk_end - chunk_start
        if length > 0:
            await self._write_to_stream(chunk_data, chunk_start)
            await self._update_progress(length)

    async def yield_chunk(self, chunk_start: int) -> Tuple[bytes, int]:
        chunk_start, chunk_end = self._calculate_range(chunk_start)
        return await self._download_chunk(chunk_start, chunk_end - 1)

    async def _update_progress(self, length: int) -> None:
        if self.progress_lock_async:
            async with self.progress_lock_async:
                self.progress_total += length
        else:
            self.progress_total += length

        if self.progress_hook:
            await cast(Callable[[int, Optional[int]], Awaitable[Any]], self.progress_hook)(
                self.progress_total, self.total_size)

    async def _write_to_stream(self, chunk_data: bytes, chunk_start: int) -> None:
        if self.stream_lock_async:
            async with self.stream_lock_async:
                self.stream.seek(self.stream_start + (chunk_start - self.start_index))
                self.stream.write(chunk_data)
        else:
            self.stream.write(chunk_data)

    async def _download_chunk(self, chunk_start: int, chunk_end: int) -> Tuple[bytes, int]:
        if self.encryption_options is None:
            raise ValueError("Required argument is missing: encryption_options")
        download_range, offset = process_range_and_offset(
            chunk_start, chunk_end, chunk_end, self.encryption_options, self.encryption_data
        )

        # No need to download the empty chunk from server if there's no data in the chunk to be downloaded.
        # Do optimize and create empty chunk locally if condition is met.
        if self._do_optimize(download_range[0], download_range[1]):
            content_length = download_range[1] - download_range[0] + 1
            chunk_data = b"\x00" * content_length
        else:
            range_header, range_validation = validate_and_format_range_headers(
                download_range[0],
                download_range[1],
                check_content_md5=self.validate_content
            )

            retry_active = True
            retry_total = 3
            while retry_active:
                try:
                    _, response = await cast(Awaitable[Any], self.client.download(
                        range=range_header,
                        range_get_content_md5=range_validation,
                        validate_content=self.validate_content,
                        data_stream_total=self.total_size,
                        download_stream_current=self.progress_total,
                        **self.request_options
                    ))
                except HttpResponseError as error:
                    process_storage_error(error)

                try:
                    chunk_data = await process_content(response, offset[0], offset[1], self.encryption_options)
                    retry_active = False
                except (IncompleteReadError, HttpResponseError, DecodeError) as error:
                    retry_total -= 1
                    if retry_total <= 0:
                        raise HttpResponseError(error, error=error) from error
                    await asyncio.sleep(1)
            content_length = response.content_length

            # This makes sure that if_match is set so that we can validate
            # that subsequent downloads are to an unmodified blob
            if self.request_options.get('modified_access_conditions'):
                self.request_options['modified_access_conditions'].if_match = response.properties.etag

        return chunk_data, content_length


class _AsyncChunkIterator(object):
    """Async iterator for chunks in blob download stream."""

    def __init__(self, size: int, content: bytes, downloader: Optional[_AsyncChunkDownloader], chunk_size: int) -> None:
        self.size = size
        self._chunk_size = chunk_size
        self._current_content = content
        self._iter_downloader = downloader
        self._iter_chunks: Optional[Generator[int, None, None]] = None
        self._complete = size == 0

    def __len__(self) -> int:
        return self.size

    def __iter__(self) -> None:
        raise TypeError("Async stream must be iterated asynchronously.")

    def __aiter__(self) -> AsyncIterator[bytes]:
        return self

    # Iterate through responses.
    async def __anext__(self) -> bytes:
        if self._complete:
            raise StopAsyncIteration("Download complete")
        if not self._iter_downloader:
            # cut the data obtained from initial GET into chunks
            if len(self._current_content) > self._chunk_size:
                return self._get_chunk_data()
            self._complete = True
            return self._current_content

        if not self._iter_chunks:
            self._iter_chunks = self._iter_downloader.get_chunk_offsets()

        # initial GET result still has more than _chunk_size bytes of data
        if len(self._current_content) >= self._chunk_size:
            return self._get_chunk_data()

        try:
            chunk = next(self._iter_chunks)
            self._current_content += (await self._iter_downloader.yield_chunk(chunk))[0]
        except StopIteration as exc:
            self._complete = True
            # it's likely that there some data left in self._current_content
            if self._current_content:
                return self._current_content
            raise StopAsyncIteration("Download complete") from exc

        return self._get_chunk_data()

    def _get_chunk_data(self) -> bytes:
        chunk_data = self._current_content[: self._chunk_size]
        self._current_content = self._current_content[self._chunk_size:]
        return chunk_data


class StorageStreamDownloader(Generic[T]):  # pylint: disable=too-many-instance-attributes
    """
    A streaming object to download from Azure Storage.
    """

    name: str
    """The name of the blob being downloaded."""
    container: str
    """The name of the container where the blob is."""
    properties: "BlobProperties"
    """The properties of the blob being downloaded. If only a range of the data is being
    downloaded, this will be reflected in the properties."""
    size: int
    """The size of the total data in the stream. This will be the byte range if specified,
    otherwise the total size of the blob."""

    def __init__(
        self,
        clients: "AzureBlobStorage" = None,  # type: ignore [assignment]
        config: "StorageConfiguration" = None,  # type: ignore [assignment]
        start_range: Optional[int] = None,
        end_range: Optional[int] = None,
        validate_content: bool = None,  # type: ignore [assignment]
        encryption_options: Dict[str, Any] = None,  # type: ignore [assignment]
        max_concurrency: int = 1,
        name: str = None,  # type: ignore [assignment]
        container: str = None,  # type: ignore [assignment]
        encoding: Optional[str] = None,
        download_cls: Optional[Callable] = None,
        **kwargs: Any
    ) -> None:
        self.name = name
        self.container = container
        self.size = 0

        self._clients = clients
        self._config = config
        self._start_range = start_range
        self._end_range = end_range
        self._max_concurrency = max_concurrency
        self._encoding = encoding
        self._validate_content = validate_content
        self._encryption_options = encryption_options or {}
        self._progress_hook = kwargs.pop('progress_hook', None)
        self._request_options = kwargs
        self._response = None
        self._location_mode = None
        self._current_content: Union[str, bytes] = b''
        self._file_size = 0
        self._non_empty_ranges = None
        self._encryption_data: Optional["_EncryptionData"] = None

        # The content download offset, after any processing (decryption), in bytes
        self._download_offset = 0
        # The raw download offset, before processing (decryption), in bytes
        self._raw_download_offset = 0
        # The offset the stream has been read to in bytes or chars depending on mode
        self._read_offset = 0
        # The offset into current_content that has been consumed in bytes or chars depending on mode
        self._current_content_offset = 0

        self._text_mode: Optional[bool] = None
        self._decoder: Optional["IncrementalDecoder"] = None
        # Whether the current content is the first chunk of download content or not
        self._first_chunk = True
        self._download_start = self._start_range or 0

        # The cls is passed in via download_cls to avoid conflicting arg name with Generic.__new__
        # but needs to be changed to cls in the request options.
        self._request_options['cls'] = download_cls

    def __len__(self):
        return self.size

    async def _get_encryption_data_request(self) -> None:
        # Save current request cls
        download_cls = self._request_options.pop('cls', None)

        # Temporarily removing this for the get properties request
        decompress = self._request_options.pop('decompress', None)

        # Adjust cls for get_properties
        self._request_options['cls'] = deserialize_blob_properties

        properties = cast("BlobProperties", await self._clients.blob.get_properties(**self._request_options))
        # This will return None if there is no encryption metadata or there are parsing errors.
        # That is acceptable here, the proper error will be caught and surfaced when attempting
        # to decrypt the blob.
        self._encryption_data = parse_encryption_data(properties.metadata)

        # Restore cls for download
        self._request_options['cls'] = download_cls

        # Decompression does not work with client-side encryption
        if decompress is not None:
            self._request_options['decompress'] = decompress

    async def _setup(self) -> None:
        if self._encryption_options.get("key") is not None or self._encryption_options.get("resolver") is not None:
            await self._get_encryption_data_request()

        # The service only provides transactional MD5s for chunks under 4MB.
        # If validate_content is on, get only self.MAX_CHUNK_GET_SIZE for the first
        # chunk so a transactional MD5 can be retrieved.
        first_get_size = (
            self._config.max_single_get_size if not self._validate_content else self._config.max_chunk_get_size
        )
        initial_request_start = self._start_range if self._start_range is not None else 0
        if self._end_range is not None and self._end_range - initial_request_start < first_get_size:
            initial_request_end = self._end_range
        else:
            initial_request_end = initial_request_start + first_get_size - 1

        # pylint: disable-next=attribute-defined-outside-init
        self._initial_range, self._initial_offset = process_range_and_offset(
            initial_request_start,
            initial_request_end,
            self._end_range,
            self._encryption_options,
            self._encryption_data
        )

        self._response = await self._initial_request()
        self.properties = cast("BlobProperties", self._response.properties)  # type: ignore [attr-defined]
        self.properties.name = self.name
        self.properties.container = self.container

        # Set the content length to the download size instead of the size of the last range
        self.properties.size = self.size
        self.properties.content_range = (f"bytes {self._download_start}-"
                                         f"{self._end_range if self._end_range is not None else self._file_size - 1}/"
                                         f"{self._file_size}")

        # Overwrite the content MD5 as it is the MD5 for the last range instead
        # of the stored MD5
        # TODO: Set to the stored MD5 when the service returns this
        self.properties.content_md5 = None  # type: ignore [attr-defined]

    @property
    def _download_complete(self):
        if is_encryption_v2(self._encryption_data):
            return self._download_offset >= self.size
        return self._raw_download_offset >= self.size

    async def _initial_request(self):
        range_header, range_validation = validate_and_format_range_headers(
            self._initial_range[0],
            self._initial_range[1],
            start_range_required=False,
            end_range_required=False,
            check_content_md5=self._validate_content
        )

        retry_active = True
        retry_total = 3
        while retry_active:
            try:
                location_mode, response = cast(Tuple[Optional[str], Any], await self._clients.blob.download(
                    range=range_header,
                    range_get_content_md5=range_validation,
                    validate_content=self._validate_content,
                    data_stream_total=None,
                    download_stream_current=0,
                    **self._request_options
                ))

                # Check the location we read from to ensure we use the same one
                # for subsequent requests.
                self._location_mode = location_mode

                # Parse the total file size and adjust the download size if ranges
                # were specified
                self._file_size = parse_length_from_content_range(response.properties.content_range)
                if self._file_size is None:
                    raise ValueError("Required Content-Range response header is missing or malformed.")
                # Remove any extra encryption data size from blob size
                self._file_size = adjust_blob_size_for_encryption(self._file_size, self._encryption_data)

                if self._end_range is not None and self._start_range is not None:
                    # Use the length unless it is over the end of the file
                    self.size = min(self._file_size - self._start_range, self._end_range - self._start_range + 1)
                elif self._start_range is not None:
                    self.size = self._file_size - self._start_range
                else:
                    self.size = self._file_size

            except HttpResponseError as error:
                if self._start_range is None and error.response and error.status_code == 416:
                    # Get range will fail on an empty file. If the user did not
                    # request a range, do a regular get request in order to get
                    # any properties.
                    try:
                        _, response = cast(Tuple[Optional[Any], Any], await self._clients.blob.download(
                            validate_content=self._validate_content,
                            data_stream_total=0,
                            download_stream_current=0,
                            **self._request_options))
                    except HttpResponseError as e:
                        process_storage_error(e)

                    # Set the download size to empty
                    self.size = 0
                    self._file_size = 0
                else:
                    process_storage_error(error)

            try:
                if self.size == 0:
                    self._current_content = b""
                else:
                    self._current_content = await process_content(
                        response,
                        self._initial_offset[0],
                        self._initial_offset[1],
                        self._encryption_options
                    )
                retry_active = False
            except (IncompleteReadError, HttpResponseError, DecodeError) as error:
                retry_total -= 1
                if retry_total <= 0:
                    raise HttpResponseError(error, error=error) from error
                await asyncio.sleep(1)
        self._download_offset += len(self._current_content)
        self._raw_download_offset += response.content_length

        # get page ranges to optimize downloading sparse page blob
        if response.properties.blob_type == 'PageBlob':
            try:
                page_ranges = await self._clients.page_blob.get_page_ranges()
                self._non_empty_ranges = get_page_ranges_result(page_ranges)[0]
            except HttpResponseError:
                pass

        if not self._download_complete and self._request_options.get("modified_access_conditions"):
            self._request_options["modified_access_conditions"].if_match = response.properties.etag

        return response

    def chunks(self) -> AsyncIterator[bytes]:
        """
        Iterate over chunks in the download stream. Note, the iterator returned will
        iterate over the entire download content, regardless of any data that was
        previously read.

        NOTE: If the stream has been partially read, some data may be re-downloaded by the iterator.

        :return: An async iterator of the chunks in the download stream.
        :rtype: AsyncIterator[bytes]

        .. admonition:: Example:

            .. literalinclude:: ../samples/blob_samples_hello_world_async.py
                :start-after: [START download_a_blob_in_chunk]
                :end-before: [END download_a_blob_in_chunk]
                :language: python
                :dedent: 16
                :caption: Download a blob using chunks().
        """
        if self._text_mode:
            raise ValueError("Stream has been partially read in text mode. chunks is not supported in text mode.")
        if self._encoding:
            warnings.warn("Encoding is ignored with chunks as only bytes are supported.")

        iter_downloader = None
        # If we still have the first chunk buffered, use it. Otherwise, download all content again
        if not self._first_chunk or not self._download_complete:
            if self._first_chunk:
                start = self._download_start + len(self._current_content)
                current_progress = len(self._current_content)
            else:
                start = self._download_start
                current_progress = 0

            end = self._download_start + self.size

            iter_downloader = _AsyncChunkDownloader(
                client=self._clients.blob,
                non_empty_ranges=self._non_empty_ranges,
                total_size=self.size,
                chunk_size=self._config.max_chunk_get_size,
                current_progress=current_progress,
                start_range=start,
                end_range=end,
                validate_content=self._validate_content,
                encryption_options=self._encryption_options,
                encryption_data=self._encryption_data,
                use_location=self._location_mode,
                **self._request_options
            )

        initial_content = self._current_content if self._first_chunk else b''
        return _AsyncChunkIterator(
            size=self.size,
            content=cast(bytes, initial_content),
            downloader=iter_downloader,
            chunk_size=self._config.max_chunk_get_size)

    @overload
    async def read(self, size: int = -1) -> T:
        ...

    @overload
    async def read(self, *, chars: Optional[int] = None) -> T:
        ...

    # pylint: disable-next=too-many-statements,too-many-branches
    async def read(self, size: int = -1, *, chars: Optional[int] = None) -> T:
        """
        Read the specified bytes or chars from the stream. If `encoding`
        was specified on `download_blob`, it is recommended to use the
        chars parameter to read a specific number of chars to avoid decoding
        errors. If size/chars is unspecified or negative all bytes will be read.

        :param int size:
            The number of bytes to download from the stream. Leave unspecified
            or set negative to download all bytes.
        :keyword Optional[int] chars:
            The number of chars to download from the stream. Leave unspecified
            or set negative to download all chars. Note, this can only be used
            when encoding is specified on `download_blob`.
        :return:
            The requested data as bytes or a string if encoding was specified. If
            the return value is empty, there is no more data to read.
        :rtype: T
        """
        if size > -1 and self._encoding:
            warnings.warn(
                "Size parameter specified with text encoding enabled. It is recommended to use chars "
                "to read a specific number of characters instead."
            )
        if size > -1 and chars is not None:
            raise ValueError("Cannot specify both size and chars.")
        if not self._encoding and chars is not None:
            raise ValueError("Must specify encoding to read chars.")
        if self._text_mode and size > -1:
            raise ValueError("Stream has been partially read in text mode. Please use chars.")
        if self._text_mode is False and chars is not None:
            raise ValueError("Stream has been partially read in bytes mode. Please use size.")

        # Empty blob or already read to the end
        if (size == 0 or chars == 0 or
                (self._download_complete and self._current_content_offset >= len(self._current_content))):
            return b'' if not self._encoding else ''  # type: ignore [return-value]

        if not self._text_mode and chars is not None and self._encoding is not None:
            self._text_mode = True
            self._decoder = codecs.getincrementaldecoder(self._encoding)('strict')
            self._current_content = self._decoder.decode(
                cast(bytes, self._current_content), final=self._download_complete)
        elif self._text_mode is None:
            self._text_mode = False

        output_stream: Union[BytesIO, StringIO]
        if self._text_mode:
            output_stream = StringIO()
            size = sys.maxsize if chars is None or chars <= 0 else chars
        else:
            output_stream = BytesIO()
            size = size if size > 0 else sys.maxsize
        readall = size == sys.maxsize
        count = 0

        # Start by reading from current_content
        start = self._current_content_offset
        length = min(len(self._current_content) - self._current_content_offset, size - count)
        read = output_stream.write(self._current_content[start:start + length])  # type: ignore [arg-type]

        count += read
        self._current_content_offset += read
        self._read_offset += read
        await self._check_and_report_progress()

        remaining = size - count
        if remaining > 0 and not self._download_complete:
            # Create a downloader than can download the rest of the file
            start = self._download_start + self._download_offset
            end = self._download_start + self.size

            parallel = self._max_concurrency > 1
            downloader = _AsyncChunkDownloader(
                client=self._clients.blob,
                non_empty_ranges=self._non_empty_ranges,
                total_size=self.size,
                chunk_size=self._config.max_chunk_get_size,
                current_progress=self._read_offset,
                start_range=start,
                end_range=end,
                stream=output_stream,
                parallel=parallel,
                validate_content=self._validate_content,
                encryption_options=self._encryption_options,
                encryption_data=self._encryption_data,
                use_location=self._location_mode,
                progress_hook=self._progress_hook,
                **self._request_options
            )
            self._first_chunk = False

            # When reading all data, have the downloader read everything into the stream.
            # Else, read one chunk at a time (using the downloader as an iterator) until
            # the requested size is reached.
            chunks_iter = downloader.get_chunk_offsets()
            if readall and not self._text_mode:
                running_futures: Any = [
                    asyncio.ensure_future(downloader.process_chunk(d))
                    for d in islice(chunks_iter, 0, self._max_concurrency)
                ]
                while running_futures:
                    # Wait for some download to finish before adding a new one
                    done, running_futures = await asyncio.wait(
                        running_futures, return_when=asyncio.FIRST_COMPLETED)
                    try:
                        for task in done:
                            task.result()
                    except HttpResponseError as error:
                        process_storage_error(error)
                    try:
                        for _ in range(0, len(done)):
                            next_chunk = next(chunks_iter)
                            running_futures.add(asyncio.ensure_future(downloader.process_chunk(next_chunk)))
                    except StopIteration:
                        break

                if running_futures:
                    # Wait for the remaining downloads to finish
                    done, _running_futures = await asyncio.wait(running_futures)
                    try:
                        for task in done:
                            task.result()
                    except HttpResponseError as error:
                        process_storage_error(error)

                self._complete_read()

            else:
                while (chunk := next(chunks_iter, None)) is not None and remaining > 0:
                    chunk_data, content_length = await downloader.yield_chunk(chunk)
                    self._download_offset += len(chunk_data)
                    self._raw_download_offset += content_length
                    if self._text_mode and self._decoder is not None:
                        self._current_content = self._decoder.decode(chunk_data, final=self._download_complete)
                    else:
                        self._current_content = chunk_data

                    if remaining < len(self._current_content):
                        read = output_stream.write(self._current_content[:remaining])  # type: ignore [arg-type]
                    else:
                        read = output_stream.write(self._current_content)  # type: ignore [arg-type]

                    self._current_content_offset = read
                    self._read_offset += read
                    remaining -= read
                    await self._check_and_report_progress()

        data = output_stream.getvalue()
        if not self._text_mode and self._encoding:
            try:
                # This is technically incorrect to do, but we have it for backwards compatibility.
                data = cast(bytes, data).decode(self._encoding)
            except UnicodeDecodeError:
                warnings.warn(
                    "Encountered a decoding error while decoding blob data from a partial read. "
                    "Try using the `chars` keyword instead to read in text mode."
                )
                raise

        return data  # type: ignore [return-value]

    async def readall(self) -> T:
        """
        Read the entire contents of this blob.
        This operation is blocking until all data is downloaded.

        :return: The requested data as bytes or a string if encoding was specified.
        :rtype: T
        """
        return await self.read()

    async def readinto(self, stream: IO[bytes]) -> int:
        """Download the contents of this blob to a stream.

        :param IO[bytes] stream:
            The stream to download to. This can be an open file-handle,
            or any writable stream. The stream must be seekable if the download
            uses more than one parallel connection.
        :return: The number of bytes read.
        :rtype: int
        """
        if self._text_mode:
            raise ValueError("Stream has been partially read in text mode. readinto is not supported in text mode.")
        if self._encoding:
            warnings.warn("Encoding is ignored with readinto as only byte streams are supported.")

        # the stream must be seekable if parallel download is required
        parallel = self._max_concurrency > 1
        if parallel:
            error_message = "Target stream handle must be seekable."
            if sys.version_info >= (3,) and not stream.seekable():
                raise ValueError(error_message)

            try:
                stream.seek(stream.tell())
            except (NotImplementedError, AttributeError) as exc:
                raise ValueError(error_message) from exc

        # If some data has been streamed using `read`, only stream the remaining data
        remaining_size = self.size - self._read_offset
        # Already read to the end
        if remaining_size <= 0:
            return 0

        # Write the current content to the user stream
        current_remaining = len(self._current_content) - self._current_content_offset
        start = self._current_content_offset
        count = stream.write(cast(bytes, self._current_content[start:start + current_remaining]))

        self._current_content_offset += count
        self._read_offset += count
        if self._progress_hook:
            await self._progress_hook(self._read_offset, self.size)

        # If all the data was already downloaded/buffered
        if self._download_complete:
            return remaining_size

        data_start = self._download_start + self._read_offset
        data_end = self._download_start + self.size

        downloader = _AsyncChunkDownloader(
            client=self._clients.blob,
            non_empty_ranges=self._non_empty_ranges,
            total_size=self.size,
            chunk_size=self._config.max_chunk_get_size,
            current_progress=self._read_offset,
            start_range=data_start,
            end_range=data_end,
            stream=stream,
            parallel=parallel,
            validate_content=self._validate_content,
            encryption_options=self._encryption_options,
            encryption_data=self._encryption_data,
            use_location=self._location_mode,
            progress_hook=self._progress_hook,
            **self._request_options
        )

        dl_tasks = downloader.get_chunk_offsets()
        running_futures = {
            asyncio.ensure_future(downloader.process_chunk(d))
            for d in islice(dl_tasks, 0, self._max_concurrency)
        }
        while running_futures:
            # Wait for some download to finish before adding a new one
            done, running_futures = await asyncio.wait(
                running_futures, return_when=asyncio.FIRST_COMPLETED)
            try:
                for task in done:
                    task.result()
            except HttpResponseError as error:
                process_storage_error(error)
            try:
                for _ in range(0, len(done)):
                    next_chunk = next(dl_tasks)
                    running_futures.add(asyncio.ensure_future(downloader.process_chunk(next_chunk)))
            except StopIteration:
                break

        if running_futures:
            # Wait for the remaining downloads to finish
            done, _running_futures = await asyncio.wait(running_futures)
            try:
                for task in done:
                    task.result()
            except HttpResponseError as error:
                process_storage_error(error)

        self._complete_read()
        return remaining_size

    def _complete_read(self):
        """Adjusts all offsets to the end of the download."""
        self._download_offset = self.size
        self._raw_download_offset = self.size
        self._read_offset = self.size
        self._current_content_offset = len(self._current_content)

    async def _check_and_report_progress(self):
        """Reports progress if necessary."""
        # Only report progress at the end of each chunk and use download_offset to always report
        # progress in terms of (approximate) byte count.
        if self._progress_hook and self._current_content_offset == len(self._current_content):
            await self._progress_hook(self._download_offset, self.size)

    async def content_as_bytes(self, max_concurrency=1):
        """DEPRECATED: Download the contents of this file.

        This operation is blocking until all data is downloaded.

        This method is deprecated, use func:`readall` instead.

        :param int max_concurrency:
            The number of parallel connections with which to download.
        :return: The contents of the file as bytes.
        :rtype: bytes
        """
        warnings.warn(
            "content_as_bytes is deprecated, use readall instead",
            DeprecationWarning
        )
        if self._text_mode:
            raise ValueError("Stream has been partially read in text mode. "
                             "content_as_bytes is not supported in text mode.")

        self._max_concurrency = max_concurrency
        return await self.readall()

    async def content_as_text(self, max_concurrency=1, encoding="UTF-8"):
        """DEPRECATED: Download the contents of this blob, and decode as text.

        This operation is blocking until all data is downloaded.

        This method is deprecated, use func:`readall` instead.

        :param int max_concurrency:
            The number of parallel connections with which to download.
        :param str encoding:
            Test encoding to decode the downloaded bytes. Default is UTF-8.
        :return: The content of the file as a str.
        :rtype: str
        """
        warnings.warn(
            "content_as_text is deprecated, use readall instead",
            DeprecationWarning
        )
        if self._text_mode:
            raise ValueError("Stream has been partially read in text mode. "
                             "content_as_text is not supported in text mode.")

        self._max_concurrency = max_concurrency
        self._encoding = encoding
        return await self.readall()

    async def download_to_stream(self, stream, max_concurrency=1):
        """DEPRECATED: Download the contents of this blob to a stream.

        This method is deprecated, use func:`readinto` instead.

        :param IO[T] stream:
            The stream to download to. This can be an open file-handle,
            or any writable stream. The stream must be seekable if the download
            uses more than one parallel connection.
        :param int max_concurrency:
            The number of parallel connections with which to download.
        :return: The properties of the downloaded blob.
        :rtype: Any
        """
        warnings.warn(
            "download_to_stream is deprecated, use readinto instead",
            DeprecationWarning
        )
        if self._text_mode:
            raise ValueError("Stream has been partially read in text mode. "
                             "download_to_stream is not supported in text mode.")

        self._max_concurrency = max_concurrency
        await self.readinto(stream)
        return self.properties
